wind measurement

简明释义

风的测定

英英释义

例句

1.The meteorologist explained that accurate wind measurement 风速测量 is crucial for predicting storms.

气象学家解释说，准确的风速测量对于预测风暴至关重要。

2.The wind measurement 风速测量 data helps farmers decide the best time for planting crops.

风速测量数据帮助农民决定最佳的种植时间。

3.Engineers conducted wind measurement 风速测量 tests to ensure the safety of the new bridge design.

工程师进行了风速测量测试，以确保新桥设计的安全性。

4.In our sailing class, we learned how to use instruments for wind measurement 风速测量 to navigate better.

在我们的帆船课上，我们学习了如何使用仪器进行风速测量以更好地导航。

5.The research team focused on wind measurement 风速测量 to assess the potential for wind energy in the area.

研究小组专注于风速测量以评估该地区的风能潜力。

作文

Wind plays a crucial role in our daily lives and the environment. From determining weather patterns to influencing renewable energy sources, understanding wind is essential. One of the key aspects of studying wind is through wind measurement (风速测量). This involves quantifying the speed and direction of the wind at various locations and times. Accurate wind measurement (风速测量) is vital for meteorologists, engineers, and environmentalists alike. Meteorologists rely on wind measurement (风速测量) to predict weather changes and storm patterns. By analyzing wind data, they can provide more accurate forecasts, which are essential for public safety. For instance, when a hurricane is approaching, knowing the wind speed can help authorities make informed decisions about evacuations and resource allocation. In addition to weather forecasting, wind measurement (风速测量) is crucial for the renewable energy sector. Wind turbines convert the kinetic energy of wind into electricity, and their efficiency depends significantly on the wind conditions in a given area. Engineers conduct wind measurement (风速测量) studies to identify suitable locations for wind farms. They analyze long-term wind patterns to ensure that these sites can generate sufficient energy to be economically viable. Moreover, wind measurement (风速测量) is also important in aviation. Pilots need to understand wind conditions to ensure safe takeoffs and landings. Airports utilize sophisticated equipment to monitor wind speeds and directions, providing real-time data to pilots. This information is critical, as strong winds can affect an aircraft's performance during crucial phases of flight. Apart from these applications, wind measurement (风速测量) is also significant in urban planning. City planners use wind data to design buildings and structures that can withstand strong winds, especially in areas prone to storms. Understanding local wind patterns helps architects create designs that minimize wind resistance and enhance energy efficiency. There are various methods and instruments used for wind measurement (风速测量). Anemometers are commonly used devices that measure wind speed. They come in different types, including cup anemometers and vane anemometers, each suited for specific applications. Additionally, weather balloons and remote sensing technologies like LIDAR are employed for more comprehensive wind profiling. In conclusion, wind measurement (风速测量) is an essential aspect of various fields, including meteorology, renewable energy, aviation, and urban planning. As we continue to face challenges related to climate change and energy sustainability, the importance of accurately measuring wind will only grow. By investing in advanced technologies and methodologies for wind measurement (风速测量), we can better prepare for the future and harness the power of wind to benefit society.

风在我们的日常生活和环境中起着至关重要的作用。从决定天气模式到影响可再生能源，了解风是必不可少的。研究风的关键方面之一是通过风速测量（风速测量）。这涉及在不同地点和时间量化风的速度和方向。准确的风速测量（风速测量）对气象学家、工程师和环保人士都至关重要。气象学家依赖于风速测量（风速测量）来预测天气变化和风暴模式。通过分析风数据，他们可以提供更准确的天气预报，这对于公众安全至关重要。例如，当飓风逼近时，了解风速可以帮助当局做出有关撤离和资源分配的明智决策。除了天气预报，风速测量（风速测量）对可再生能源部门也至关重要。风力涡轮机将风的动能转化为电能，其效率在很大程度上取决于特定区域的风况。工程师进行风速测量（风速测量）研究，以确定风电场的合适位置。他们分析长期的风模式，以确保这些地点能够产生足够的能源以实现经济可行性。此外，风速测量（风速测量）在航空领域也很重要。飞行员需要了解风的状况，以确保安全起飞和着陆。机场利用先进的设备监测风速和风向，向飞行员提供实时数据。这些信息至关重要，因为强风会影响飞机在关键飞行阶段的表现。除了这些应用，风速测量（风速测量）在城市规划中也很重要。城市规划者使用风数据来设计能够抵御强风的建筑物和结构，特别是在易受风暴影响的地区。了解当地的风模式有助于建筑师创建最小化风阻和提高能效的设计。有各种方法和仪器用于风速测量（风速测量）。风速计是常用的测量风速的设备。它们有不同类型，包括杯式风速计和风向标风速计，各自适用于特定的应用。此外，气象气球和激光雷达等遥感技术也用于更全面的风剖面测量。总之，风速测量（风速测量）是气象学、可再生能源、航空和城市规划等多个领域的一个重要方面。随着我们继续面临与气候变化和能源可持续性相关的挑战，准确测量风的重要性只会增加。通过投资于先进的风速测量（风速测量）技术和方法，我们可以更好地为未来做好准备，并利用风的力量造福社会。